IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0862788
(2001-05-18)
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발명자
/ 주소 |
- Ahmadjian, Mark
- Huppi, Ernest Ray
- Smith, Donald R.
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출원인 / 주소 |
- The United States of America as represented by the Secretary of the Air Force
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인용정보 |
피인용 횟수 :
6 인용 특허 :
14 |
초록
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Provided is a photodetector that detects missile launches from an above-flying surveillance platform through clouds. The plume detector includes a passive electro-optical sensor which detects the narrow spectral emissions in a rocket engine plume during launch thereof. By detecting a launch upon roc
Provided is a photodetector that detects missile launches from an above-flying surveillance platform through clouds. The plume detector includes a passive electro-optical sensor which detects the narrow spectral emissions in a rocket engine plume during launch thereof. By detecting a launch upon rocket engine ignition, despite a cloud layer, a gain of up to thirty seconds or more of launch warning is realized and the location of the launch can be accurately determined and the trajectory of such rocket more accurately plotted for enhanced response to such launch. The plume detector of the invention can be carried on a platform such as an aircraft or an orbiting satellite. In each case such detector can spectrally isolate the narrow spectral emissions of interest of a missile or other rocket, as it is launched, for faster tracking and response.
대표청구항
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1. A rocket plume detector comprising:a) a passive electro-optical sensor for detecting narrow band spectral emissions in a rocket engine plume, including through clouds andb) a lock-in amplifier to reduce background radiation for enhanced plume detection, said sensor being mounted on an above-flyin
1. A rocket plume detector comprising:a) a passive electro-optical sensor for detecting narrow band spectral emissions in a rocket engine plume, including through clouds andb) a lock-in amplifier to reduce background radiation for enhanced plume detection, said sensor being mounted on an above-flying or orbiting platform.2. The detector of claim 1 wherein said sensor isolates the rocket plume wavelength of interest selected from the group of aluminum, aluminum perchlorate, carbon dioxide, carbon monoxide, copper, copper hydride, hydrogen chloride, hydroxyl, methane, mon-methyl hydrazine, nitric acid, nitric oxide, nitrogen dioxide, nitrous oxide, polybutadiene, potassium, sodium, sulfur dioxide, and water to detect a rocket launch plume.3. The plume detector of claim 2 wherein said sensor can spectrally isolate or detect the emission wavelength of interest in the plume of a rocket being launched through fog, clouds and other water vapor.4. The plume detector of claim 3 wherein said sensor can spectrally detect the emission wavelength of Na or K in a rocket engine plume.5. The plume detector of claim 1 wherein said platform is an aircraft or an orbiting satellite.6. The detector of claim 5 which includes a narrow band filtered radiometer when carried on said aircraft or includes a spectrographic imager when carried on said satellite or vice versa.7. The plume detector of claim 5 employing ultraviolet and visible imagers and spectrographic imagers as a UVISI sensor on-board said satellite platform, to measure from space, a ground-based Na emission source or to measure from space, the emission of interest in the plume of a rocket being launched.8. The plume detector of claim 5 employing a sensor with a narrow band spectral filter at a wavelength that is radiated through clouds.9. The plume detector of claim 5 adapted to employ a plurality of filters, radiometric or spectrometric, which detector is tunable to a desired rocket plume emission wavelength.10. The rocket plume detector of claim 9 being suited for both missile detection and characterization.11. The detector of claim 1 wherein said sensor hasa) a narrow band filtered photometer,b) data acquisition electronics andc) a computer to monitor & record resulting data.12. The plume detector of claim 1 comprisinga) collection optics for plume emissions,b) a focal plane assembly which includes a spectral filter,c) data acquisition avionics,d) a global positioning system (GPS) receiver ande) a computer for receiving the detector data signal and the GPS data for data acquisition, storage, processing and display.13. The plume detector of claim 12 wherein said focal plane assembly includes a photomultiplier and said spectral filter serves to pass the emission of interest and to reject the background emission.14. The plume detector of claim 12 wherein said GPS receiver records the flight path of the detector platform.15. The plume detector of claim 12 wherein a 10-nm-wide or spectral filter suitable for nighttime emission detection is replaced with a 0.005 nm atomic line filter (ALF) for daytime emission detection.16. A method of detecting a rocket plume comprising:a) employing a passive electro-optical sensor for detecting narrow band spectral emissions in a rocket engine plume, including through clouds andb) employing a lock-in amplifier to reduce background radiation for enhanced plume detection, said sensor being mounted on an above-flying or orbiting platform.17. The method of claim 16 wherein said sensor isolates the rocket plume wavelength of interest selected from the group of aluminum, aluminum perchlorate, carbon dioxide, carbon monoxide, copper, copper hydride, hydrogen chloride, hydroxyl, methane, mon-methyl hydrazine, nitric acid, nitric oxide, nitrogen dioxide, nitrous oxide, polybutadiene, potassium, sodium, sulfur dioxide, and water to detect a rocket launch plume.18. The method of claim 16 wherein said platform is an aircraft or an orbiting satellite.19. The method of claim 16 wherein said sensor can spectrally isolate or detect the emission wavelength of interest in the plume of a rocket being launched through fog, clouds and other water vapor.20. The method of claim 19 wherein said sensor can spectrally detect the emission wavelength of Na or K in a rocket engine plume.21. The method of claim 18 employing a sensor with a narrow band spectral filter at a wavelength that is radiated through clouds.
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